DE2525976A1 - PROCESS AND DEVICE FOR SPONTANEOUS DISTILLATION OF CONCERNING SUBSTANCES FROM IN PARTICULAR OILY LIQUIDS - Google Patents

Description

Dr.-lDg. H.-D. ZELLER 2 Famburg 1, June 2, 1975

Applicant: Ing.Heinz Schumacher
205 Hamburg 80
Höperfeld 26

Method and device for the spontaneous distillation of accompanying substances especially oily liquids

The invention relates to a method and an apparatus for carrying out this method for spontaneous Distillation, i.e. separation, so-called stripping, of accompanying substances, in particular from oily liquids, as described in more detail in the preamble of claim 1.

This invention relates to an improvement of the older invention according to the German patent application P 24 · 33 733.5, in which it was already assumed as known that the material to be treated, namely the oily liquids, i.e. oils or fats, at high temperatures, for example about 250 ⁰ C, water up to about 4-5 wt .- ^ in real solution, ie can absorb in molecular distribution. While the state of the art, as described for example in DT-OS 2.442.217, has so far only ever known the use of a so-called waste gas, which is also used in the contact vessel. always had to remain in the gaseous state in order to then cause the impurities to be distilled off as spontaneously as possible from the oily liquids In contrast to the prior art, both were in the liquid phase, albeit at high pressures.

It had been found that in this way one improved separation of the slip substances from the Cl, it was possible that the throughput times continue to be reduced considerably and that, as a result, the outlay on equipment could be reduced considerably

- 2 - I) OHHB 1 / Π 9 2 9

Dr.-Ing. H.-D. ZELLHH - 2 - 2.6.75

Peten environment

The most important improvement turned out to be the shortening of the lead time, because that is to be treated Especially good when it comes to vegetable oils, very sensitive in taste and sometimes even in appearance it reacted to how long it was treated at the high temperatures mentioned.

The object of the invention was therefore to reduce the residence time des.zu treated goods on the high temperature, since first a lowering of the high temperature and simultaneous good exemption from the accompanying substances does not seem possible to shorten even further. In a method of the type mentioned at the outset, this can now be achieved by measures according to the invention, as in more detail Described in the characterizing part of claim 1. Ir. Further embodiment of the invention, measures can be taken are, as described in more detail in the characteristics of the subclaims.

As a result, it is now possible to reduce the residence time of the to be treated To depress good to a few seconds while maintaining the degree of Distress or separation, but with a further reduction the outlay on equipment in the contact vessel compared to the older invention, which themselves have already been considerably reduced in size Brought equipment expense compared to the prior art.

The specified time of a few seconds is the maximum dwell time of the material to be treated, calculated from the heating in the contact vessel through the encounter with the distillate loft aid to relaxation, i.e. until spontaneous distillation, in which the distillation aid and the accompanying substances distilled off from the treated material take their heat of vaporization and this is then cooled, for example, of about 25O ⁰ C to 25-3O ° C to 220 ⁰ C and 242 ⁰ C to 212 ⁰ C, if the admixed ^ material to be treated before 3-wt. i water was.

609851/092 9

Dr.-Ing. H.-D. ZELLER -3- 2.6.75

Patent attorney

With regard to the outlay on equipment, compared to the the rather expensive reception area for the good to be treated when using this invention smaller, but the heating surfaces for the distillation aid that are much easier to manufacture and therefore also not so expensive to train something bigger.

An exemplary embodiment of the invention is shown in the drawing and is described in more detail below. At 1, the material to be separated from the accompanying substances, i.e. the material to be treated, for example a vegetable oil, is entered, brought to a pressure of about 50 atmospheres by a pressure pump 2 and then passes through the pipeline 3 into a heater 4, where it is heated to etv / a 220 ⁰ C and pressed through the pipeline 5 into the contact vessel. 6 At 7 the distillation aid is entered, e.g. Y / water or already as water vapor, brought to about 50 atä by a pressure pump 8, then fed through the pipe 9 to an evaporator or re-evaporator 10, so that the water vapor is finally at a pressure of about 50 ata 'and with a. Temperature of about 270 ⁰ C enters the contact vessel 6.

The temperature of the material to be treated is now always set in such a way that the distillation aid entering the contact vessel 6 in the gaseous state, in this example the water vapor, condenses almost suddenly and is then in the liquid phase, and the intimate phase takes place in this molecular intermingling at a mixed temperature of, for example, 242 ⁰ C and at a pressure of about 50 ats.

The mixture then passes into the expander 12 in a matter of seconds and is suddenly relaxed there, namely at a pressure of about 1 to 30 Torr and the material to be treated cools down quickly because the distillation aid and the separated accompanying substances take their heat of evaporation from the treated material.

609851/0929

Di.-Ing. H.-D. CELL «- 4 - 2.6.75

The farm achieved so then even again by around * 0 ° C lower temperatures than the contacts in Kontaktgefä36, is it etwaauf just over 200 ⁰ C, for example at 212 ⁰ C over the pipeline 14 takes the Y / pus-line to the actual separation vessel 15 , where in the heat exchanger 13, if necessary, a slight heating can still take place, namely when the spontaneous relaxation of the cooling led to temperatures that are too low.

The distillation aid is in the separating vessel, namely with the absorbed Eegleitstoffe, and the treated material in different phases, namely the first mentioned in the gaseous and the good in the liquid state. The finished product passes through line 2? the end, passes a pump 24 and leaves the system at 25 Since the pump 24 is difficult to adjust, readsorption of the material with the slip substances could occur in the case of unfavorable conditions Suction speeds take place. To avoid this, a distillation aid can be installed at 16 through e.g. a pipe ring 17 with correspondingly directed bores, thus a known sealing steam can be entered.

The distillation aid with the accompanying substances is with an ejector or thermocompressor 19 through the bore 18 withdrawn and fed via the connection 20 to a barometric condenser 21 and from there can after condensation the distillation aid with the slip substances at 22 can be removed.

Patent claims:

60985 1/0929

Claims (3)

Dr.-Ing. H.-D. ZELLEH 2 Hamburg 1, June 2, 1975 Patent attorney Applicant: Ing.Heinz Schumacher 205 Hamburg 80 Höperfeld 26 patent claims: 1. Process for spontaneous distillation, i.e. separation, so-called Stripping of accompanying substances from particularly oily liquids at higher temperatures and through strong reduced pressure using a distillation aid to lower the boiling point of the accompanying substances to be distilled off, previously for the purpose of molecular dissolving into one another the distillation aid in a so-called contact vessel at a pressure above its boiling pressure in the liquid state at a high mixing temperature with the The material to be treated which has approximately the same pressure is brought together, characterized in that the distillation aid is supplied to the contact vessel in a gaseous state is and the temperature of the material to be treated is set so that the distillation aid after the entry into the contact vessel is almost suddenly condensed. 2. The method according to claim 1, characterized in that the distillation aid water vapor, which is inputted into the contact vessel at a temperature von'etwa 270 ⁰ C,. 3. The method according to claim 1 or 2, characterized in that the mixing temperature is about 250 ⁰ C, preferably 242 ⁰ C, and the pressure in the contact vessel at least 41 © ta. ., preferably 45-50 atä. 4. Method according to one or more of the preceding claims, characterized in that about "J-wt. ^ of the distillation aid entered in gaseous form based on one part by weight of the material to be treated in the contact vessel v / earth. 609851/0929 Dr.-Iag. H.-D. ZELLER - 6 - 2.6.75 Patent attorney Device for carrying out the method according to one or more of the preceding claims, characterized in that the material to be treated is supplied to a contact vessel (6) at a pressure of about 50 to a contact vessel (6) via a pressure pump (2) and a heater (4) via a drilling line (5) ATE and a temperature of about 25O ⁰ C, more preferably 22O ⁰ C, the distillation aid Ata via a pressure pump (8) and an evaporator (10) via a pipe (11) to the contact vessel (6) at a pressure of about 50 and a temperature be supplied from about 27O ⁰ C, behind the contact vessel (6) is a flash tank (12), behind a Trenngefä3 (15) are arranged, optionally, a Yläx me exchanger (13) and behind this via a pipe (14). 609851/0929